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Abumoslem Jannesari
Researcher at Tarbiat Modares University
Publications - 63
Citations - 329
Abumoslem Jannesari is an academic researcher from Tarbiat Modares University. The author has contributed to research in topics: Noise figure & Low-noise amplifier. The author has an hindex of 9, co-authored 58 publications receiving 273 citations. Previous affiliations of Abumoslem Jannesari include Sharif University of Technology & University of Tehran.
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Data Compression in Brain-Machine/Computer Interfaces Based on the Walsh–Hadamard Transform
TL;DR: Using the proposed technique, the amount of the neural data transmitted off the implant is compressed by a factor of at least 63 at the expense of as low as 4.66% RMS error between the signal reconstructed on the external host and the original neural signal on the implant side.
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A low power low noise amplifier employing negative feedback and current reuse techniques
TL;DR: The idea is to remove the stringent trade-off between the input matching and power consumption by using the transconductance of the tail transistor, so it's suitable for multimode and Wireless Sensor Network applications.
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Pre-distortion technique to improve linearity of low noise amplifier
TL;DR: A Capacitive Cross Coupled Common Gate based LNA with high linearity is presented based on the proposed idea, and besides pre-distortion performance, the auxiliary transistor forms a noise canceling scheme and partially cancel out the channel thermal noise of main amplifying transistor.
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A linear ultra wide band low noise amplifier using pre-distortion technique
TL;DR: In this article, an Ultra Wide Band (UWB) high linear low noise amplifier is presented, where an auxiliary transistor is used at the input to sink the nonlinear terms of source current, resulting linearity improvement.
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Self-start-up fully integrated DC-DC step-up converter using body biasing technique for energy harvesting applications
TL;DR: An ultra-low power, self-start-up switched-capacitor Two Branch Charge Pump circuit for low power, low voltage, and battery-less implantable applications is proposed and a significant drop in reverse charge sharing and switching loss is led and accordingly improves pumping efficiency.